CN208692311U - A kind of atomizer and electronics heating evaporation suction unit - Google Patents

Abstract

The utility model relates to a kind of atomizers, including oil storage cabin component, base assembly and atomization core assembly.Base assembly includes base body, base body is equipped with accommodating chamber and air inlet, being atomized core assembly includes atomization portion and distributary division, atomization portion includes spray chamber, distributary division is equipped with air-flow separation chamber, air-flow separation chamber includes eddy flow region and direct current region, eddy flow region is equipped with the first centre bore, direct current region is equipped with the first airflow hole and the first deflector, first centre bore, first airflow hole is connected to spray chamber, oil storage cabin component is equipped with the second centre bore, wherein, a part of gas passes through the central area of atomizer in a manner of eddy flow, another part gas passes through the fringe region of atomizer in a manner of direct current.The utility model further discloses electronics heating evaporation suction unit.The atomizer and electronics heating evaporation suction unit of the utility model, the stability of smog mouthfeel are maintained using the straight-flow air of fringe region, the vortex gas-flow of central area improves heat dissipation performance.

Description

A kind of atomizer and electronics heating evaporation suction unit

Technical field

The utility model relates to cigarette substitute, in particular to a kind of atomizer and electronics heating evaporation suction unit.

Background technique

Atomizer currently on the market only has straight-flow air structure or vortex gas-flow structure, cannot keep good mouthfeel While stability, and reinforce atomizer heat dissipation.

Summary of the invention

The purpose of the utility model is to overcome disadvantages existing in the prior art, provide one kind and have both been able to maintain good mouth Sense stability can reinforce the atomizer of heat dissipation again.

To achieve the goals above, the utility model provides the following technical solutions:

On the one hand, the utility model provides a kind of atomizer, including oil storage cabin component, base assembly and atomization core group Part, the base assembly include base body, and the base body is equipped with accommodating chamber and air inlet, the air inlet and the appearance Receive room connection, the atomization core assembly is installed between the oil storage cabin component and the base assembly, the atomization core assembly Including atomization portion and distributary division, the atomization portion includes spray chamber, and the distributary division is installed on the atomization portion and is equipped with air-flow Separation chamber, the air-flow separation chamber include eddy flow region and the direct current region with the eddy flow regional connectivity, the eddy flow region Equipped with the first centre bore, the direct current region is equipped with the first airflow hole and the first deflector, first centre bore, described first Airflow hole is connected to the spray chamber, and the oil storage cabin component is equipped with the second centre bore, wherein the gas entered from the air inlet Body, a part passes through the first centre bore, spray chamber and the second centre bore in a manner of eddy flow, in the center of the atomizer Domain forms vortex gas-flow, another part gas in a manner of direct current by the first airflow hole, spray chamber and the second centre bore, with The fringe region of the atomizer forms straight-flow air.

Wherein, first airflow hole and first deflector are several, the first deflector radial distribution in The inner wall of the air-flow separation chamber is simultaneously protruded from the inner wall of the air-flow separation chamber towards first centre bore, described in every two First deflector is equipped between one airflow hole, to help another part gas in a manner of direct current by the edge Region.

Wherein, the distributary division further includes noise elimination ring, and the noise elimination ring is located at the end of the distributary division and is located at described The boundary in eddy flow region and the direct current region.

Wherein, the section of first deflector surrounds a circle, the central axis of the circle and first centre bore Central axis it is identical.

Wherein, the section of first airflow hole is the U-shaped that an opening reduces, the central axis of each the first airflow hole The centerline axis parallel of line and first centre bore.

Wherein, the base body is equipped with eddy flow and generates structure, and the eddy flow, which will generate structure, to be entered from the air inlet Gas formed vortex gas-flow and in a manner of eddy flow pass through the central area.

Wherein, first deflector is used to the vortex gas-flow of eddy flow production structural generation becoming straight-flow air simultaneously By the fringe region in a manner of direct current, the area in first deflector section is from close to the base body slowly court It is expanded to the atomization portion, so as to become straight-flow air more slow for vortex gas-flow.

Wherein, the eddy flow generate inner wall and the accommodating chamber that structure is air inlet inner wall is tangent or air inlet it is interior Wall is parallel with the tangent line of the inner wall of the accommodating chamber.

Wherein, the eddy flow generates the guide vane that structure is several arcs, the guide vane it is radially distributed in The inner wall of the accommodating chamber simultaneously extends from the inner wall of the accommodating chamber towards the center curvature of the accommodating chamber.

Wherein, the oil storage cabin component includes upper cover, and second centre bore is located at the centre of the upper cover, the upper cover Including several stabiliers, the radially distributed inner wall in second centre bore of the stabilier and from second centre bore Inner wall protruded towards second centre bore, to keep the intensity stabilization of the straight-flow air.

On the other hand, the utility model additionally provides a kind of electronics heating evaporation suction unit comprising host and above-mentioned, Atomizer, the host and the atomizer are electrically connected.

The atomizer and electronics heating evaporation suction unit of the utility model, are maintained using the straight-flow air of fringe region The vortex gas-flow of the stability of smog mouthfeel, central area improves heat dissipation performance.Meanwhile tobacco tar is kept using straight-flow air Oil accumulation is washed away fragmentation using washing away along wall for vortex gas-flow by primary mouthfeel, is separated in atomizer and is carried out secondary-atomizing, is protected Held atomizer integrally dry and comfortable cleaning, meanwhile, oil droplet be thrown to air flue wall surface under the centrifugal force effect of vortex gas-flow and with gas Flow separation maintains the cleannes of smog, improves the mouth feeling experience of user.

Detailed description of the invention

Fig. 1 is the assembling schematic diagram of the electronics heating evaporation suction unit of the utility model.

Fig. 2 is the schematic cross-sectional view of the first embodiment of the utility model atomizer.

Fig. 3 is the schematic cross-sectional view of base assembly in Fig. 2.

Fig. 4 is the schematic cross-sectional view that core assembly is atomized in Fig. 2.

Fig. 5 is the schematic cross-sectional view of oil storage cabin component in Fig. 2.

Fig. 6 is the stereoscopic schematic diagram of the first embodiment of the utility model distributary division.

Fig. 7 is the schematic top plan view of Fig. 6.

Fig. 8 is the stereoscopic schematic diagram of second of embodiment of the utility model distributary division.

Fig. 9 is the schematic cross-sectional view of Fig. 8.

Figure 10 is the stereoscopic schematic diagram of the first embodiment of the utility model base body.

Figure 11 is the schematic cross-sectional view of Figure 10.

Figure 12 is the stereoscopic schematic diagram of second of embodiment of the utility model base body.

Figure 13 is the schematic cross-sectional view of Figure 12.

Figure 14 is the schematic cross-sectional view of second of embodiment of the utility model atomizer.

Figure 15 is the stereoscopic schematic diagram of second of embodiment of the utility model upper cover.

Main element symbol description

The atomization of 20 oil storage cabin component of electronics heating evaporation suction unit 100 host, 10 atomizer, 30 base assembly 40 422 atomization portion of core assembly 50 base body, 42 accommodating chamber, 420 air inlet, 52 distributary division 54,520 air-flow of 54a spray chamber 540 first centre bore of separation chamber, 5,410 first 5,431 first deflector of airflow hole, 5433 eddy flow region, 541 direct current region 543 Second centre bore, 32 eddy flow generates structure 424,424a

Specific embodiment

The present invention will be further described with reference to the accompanying drawings and examples, and the content of embodiment is not as practical to this The limitation of novel protection scope.

Referring to FIG. 1, disclosing the electronics heating evaporation suction unit 100 of invention.The electronics heating evaporation suction dress Setting 100 includes host 10 and atomizer 20, and the host 10 and atomizer 20 are electrically connected and power for atomizer 20.

Fig. 2 to Fig. 7 is please referred to, the atomizer 20 includes oil storage cabin component 30, base assembly 40 and atomization core assembly 50, The base assembly 40 includes base body 42, and the base body 42 is equipped with accommodating chamber 420 and several air inlets 422, institute It states air inlet 422 to be connected to the accommodating chamber 420, the atomization core assembly 50 is installed on the oil storage cabin component 30 and the bottom Between holder assembly 40, the atomization core assembly 50 includes atomization portion 52 and distributary division 54, and the atomization portion 52 includes spray chamber 520, the distributary division 54 is installed on the atomization portion 52 and is equipped with air-flow separation chamber 540, and the air-flow separation chamber 540 includes rotation Stream region 541 and the direct current region 543 being connected to the eddy flow region 541, the eddy flow region 541 are equipped with the first centre bore 5410, the direct current region 543 is equipped with several first airflow holes 5431 and several first deflectors 5433, in described first Heart hole 5410, first airflow hole 5431 are connected to the spray chamber 520, and the oil storage cabin component 30 is equipped with the second centre bore 32, wherein the gas entered from the air inlet 422, a part pass through the first centre bore 5410, spray chamber in a manner of eddy flow 520 and second centre bore 32, to form vortex gas-flow in the central area of the atomizer 20, another part gas is with direct current Mode is formed by the first airflow hole 5431, spray chamber 520 and the second centre bore 32 with the fringe region in the atomizer 20 Straight-flow air；And first deflector 5433 is equipped between the first airflow hole 5431 described in every two, it is another to help Portion gas passes through the fringe region in a manner of direct current.

In the present embodiment, vortex gas-flow passes through from the centre of spray chamber 520 and the second centre bore 32, straight-flow air from Pass through around the inner wall of spray chamber 520 and the second centre bore 32.

In the present embodiment, the central area of atomizer 20, the region that vortex gas-flow passes through in other words are exactly in first The intermediate region of heart hole 5410 and spray chamber 520 and the second centre bore 32；The fringe region or direct current of the atomizer 20 The region that air-flow passes through is exactly first airflow hole, and around the inner wall of spray chamber 520 and the second centre bore 32 Region.

Because the gas a part in the utility model, entered from air inlet 422 passes through atomizer 20 in a manner of eddy flow Central area simultaneously forms vortex gas-flow, and another part by the fringe region of atomizer 20 and forms direct current gas in a manner of direct current Stream, and the straight-flow air of fringe region maintains the stability of smog mouthfeel, the vortex gas-flow of central area is rotated to marginal zone Domain squeezes, and the air velocity of straight-flow air is enhanced, to enhance the integral heat sink performance of atomizer 20.In other words, originally The atomizer 20 of utility model maintains the stability and primary mouthfeel of smog mouthfeel, vortex gas-flow enhancing using straight-flow air The air velocity of straight-flow air and the heat dissipation performance for improving atomizer 20.

Meanwhile the cold oil in accommodating chamber 420 is washed away and is broken into fine oil droplets by vortex gas-flow, forms oil with vortex gas-flow Gas mixture by atomization portion 52 carry out secondary-atomizing, maintain accommodating chamber 420 entirety it is dry and comfortable and cleaning.In other words, it utilizes Vortex gas-flow is washed away along wall, and oil accumulation is washed away fragmentation, is separated in atomizer 20 and is carried out secondary-atomizing, keeps atomizer 20 whole The refreshing cleaning of soma, meanwhile, oil droplet is thrown to air flue wall surface under the centrifugal force effect of vortex gas-flow and separates with air-flow, maintains The cleannes of smog improve the mouth feeling experience of user.

In the present embodiment, atomization portion 52 includes heating wire 522, the small oil droplet in gas mixture, by central area Vortex gas-flow be separated on heating wire 522 and carry out secondary-atomizing.

Fig. 6 is please referred to Fig. 9, wherein Fig. 6 and Fig. 7 discloses the distributary division 54 of the first embodiment, and Fig. 8 and Fig. 9 take off The distributary division 54a of second of embodiment is shown.

First deflector 5433 is protruded from the inner wall of the air-flow separation chamber 540 towards first centre bore 5410, The section of first airflow hole 5431 is the U-shaped that an opening reduces.

In the present embodiment, the section of first deflector 5433 surrounds a circle, and the central axis of the circle with The central axis of first centre bore 5410 is identical.In the central axis of each first airflow hole 5431 and the first centre bore 5410 Mandrel line is parallel.

In the present embodiment, inner wall radially uniform distribution of first deflector 5433 along air-flow separation chamber 540, thus the Inner wall radially uniform distribution of one airflow hole 5431 also along air-flow separation chamber 540.

Because the first airflow hole 5431 is several, and it is uniformly distributed in direct current region 543, thus from direct current region 543 The straight-flow air risen further maintains the stability of smog mouthfeel evenly into the mouth of user.

Further, because the section of the first airflow hole 5431 is the U-shaped that an opening reduces, i.e. the first airflow hole 5431 The area in section is slowly shunk towards the first centre bore 5410 from the inner wall close to air-flow separation chamber 540, hence into the first gas Gas in discharge orifice 5431 is not easily accessible the first centre bore 5410, so that straight-flow air and vortex gas-flow form apparent boundary.

Further, the distributary division 54a further includes noise elimination ring 545, and the noise elimination ring 545 is located at the end of the distributary division 54 Hold and be located at the boundary in the eddy flow region 541 and the direct current region 543.

Because the utility model is equipped with noise elimination ring 545, air flue sympathetic response noise can be weakened.In the present embodiment, cyclone gas The region that stream and straight-flow air pass through is air flue.

In the present embodiment, noise elimination ring 545 is protruded from the front end face of the first deflector 5433 towards spray chamber 520.

Figure 10 to Figure 13 is please referred to, the base body 42 is equipped with eddy flow and generates structure 424, and the eddy flow generates structure The gas entered from the air inlet 422 is formed vortex gas-flow and is entered central area in a manner of eddy flow by 424.

Because the eddy flow of the base body 42 generates structure 424 and can accommodate the gas entered from air inlet 422 Room 420 forms vortex gas-flow, and rotational flow gas rolls 420 bottom oil accumulation scour out fine oil droplets of accommodating chamber and vortex gas-flow It is formed together gas mixture and enters atomization core assembly 50, since centrifugal force acts on, oil droplet will be split on heating wire 522 Secondary-atomizing is carried out, the dry and comfortable of 420 bottom of accommodating chamber, anti-oil accumulation are maintained.

Further, the vortex gas-flow in accommodating chamber 420, after the first deflector 5433 vortex gas-flow by direct current, from And stable straight-flow air is formed in direct current region 543.

In the present embodiment, first deflector 5433 is used for the eddy flow for generating eddy flow production structure 424 Air-flow becomes straight-flow air and in a manner of direct current by the fringe region, and the section of the first deflector 5433 is splayed, I.e. the area in the section of the first deflector 5433 is slowly expanded towards atomization portion 52 from close to base body 42, so that vortex gas-flow Become that straight-flow air is more slow, to reduce the pneumatic noise generated in transition process.

Figure 10 and Figure 11 are please referred to, is that the eddy flow of the first embodiment of the utility model generates structure 424.The eddy flow Generate inner wall that structure 424 is air inlet 422 and the accommodating chamber 420 inner wall is tangent or the inner wall of air inlet 422 with it is described The tangent line of the inner wall of accommodating chamber 420 is parallel so that the inner wall of airintake direction and the accommodating chamber 420 is tangent or airintake direction with The tangent line of the inner round wall of the accommodating chamber 420 is parallel.Specifically, gas enters from air inlet 422, generates structure 424 along eddy flow Into accommodating chamber 420, vortex gas-flow is formed.

Figure 12 and Figure 13 are please referred to, is that the eddy flow of second of embodiment of the utility model generates structure 424a, the rotation Stream generates the guide vane that structure 424a is several arcs, and the guide vane is radially distributed in the accommodating chamber 420 Inner wall.Specifically, gas enters from air inlet 422, generates structure 424a along eddy flow and enters accommodating chamber 420, forms vortex gas-flow.

In the present embodiment, the guide vane is similar to the guide vane of blower or compressor, will be from air inlet 422 The portion gas of entrance is formed as vortex gas-flow.

In the present embodiment, guide vane is three, is uniformly distributed and from the inner wall of accommodating chamber 420 towards accommodating chamber 420 Center curvature extend.

In the present embodiment, the tip in the section of the guide vane is in approximately the same plane, and the tip forms one A circle, the central axis of the circle and the central axis of accommodating chamber are identical.

Referring to FIG. 5, the oil storage cabin component 30 includes upper cover 34, second centre bore 32 is located at the upper cover 34 It is intermediate.

Fig. 2, Fig. 4 and Fig. 5 are please referred to, atomizer 20 further includes settling chamber 80, and the settling chamber 80 is located at the upper cover 34 Between the atomization core assembly 50.Specifically, end portion 340 and the atomization of the settling chamber 80 by the upper cover 34 56 tip portion 560 of outer cover of core assembly 50 surrounds.

Carbon distribution on heating wire 522 can be detached into tiny carbon particle under the washing away of vortex gas-flow, and carbon particle and air-flow are mixed It closes, carbon particle deposits to settling chamber 80 after the separation of central area vortex gas-flow, and the whole cleaning of smog, is protected when maintaining suction The health of user is hindered.

Further, it when tobacco tar climbs upwards with air-flow, can be stopped by the end portion 340 of upper cover 34 and to settling chamber 80, it can effectively prevent to climb oily phenomenon, tobacco tar is avoided directly to arrive mouth, thus mouthfeel when improving suction.

Figure 14 and Figure 15 are please referred to, Figure 14 is the cross-sectional view of the atomizer 20a of second of embodiment of the utility model, Figure 15 is the stereoscopic schematic diagram of the upper cover 34a of second of embodiment.The structure class of atomizer 20a in second of embodiment It is similar to the structure of the first atomizer 20, and function is identical, the difference is that only, second of atomizer 20a has used The current divider 54a of two kinds of implementation has used the upper cover 34a of second of implementation.The upper cover 34a includes several stabiliers 342, The radially distributed inner wall in second centre bore 32 of the stabilier 342, to keep the intensity stabilization of the straight-flow air.

In use, because direct current region 543 is close to base body 42, by certain distance, the intensity of straight-flow air It can weaken, the stabilier 342 for being located at upper cover 34 plays the role of keeping direct current intensity stabilization.

In other embodiments, as the distance between distributary division 54 and upper cover 34 are shorter, can also there is no stabilier 342。

Referring to FIG. 2, in the present embodiment, atomizer 20 further includes cap assembly 60 and cigarette holder 70, the top cover group Part 60 is installed between cigarette holder 70 and oil storage cabin component 30.

Please refer to Fig. 1 to Figure 15, when assembling, distributary division 54 installs atomization portion 52 and is atomized core assembly 50 form, then mist Change core assembly 50 and be installed on base body 42, oil storage cabin component 30 is secondly installed on base assembly 40 and core assembly 50 will be atomized It is contained between base assembly 40 and oil storage cabin component 30, cap assembly 60 is finally installed on cigarette holder 70 and oil storage cabin component 30 Between, just it is assembled into atomizer 20.After mounted atomizer 20 is connect with main body, it is just assembled into electronics heating evaporation suction dress Set 100.

In use, after the eddy flow in base assembly 40 generates structure 424, forming rotation from the gas that air inlet 422 enters Stream, for the vortex gas-flow after distributary division 54, a part of air-flow passes through the Chinese and Western of atomizer 20 in a manner of vortex gas-flow Region reaches cigarette holder 70, and another part air-flow reaches cigarette holder 70 by the fringe region of atomizer 20 in a manner of straight-flow air.

Because of the electronics heating evaporation suction unit 100 of the utility model, vortex gas-flow and straight-flow air can be formed, not only It is high to make tobacco tar taste reduction degree, and good mouthfeel can be kept for a long time, and improve thermal diffusivity, extends electronics heating and steams In the service life for sending out suction unit 100, reduce customer using cost.Further, it is possible to keep whole dry and comfortable, the anti-leak-stopping of atomizer 20 Oil, the grunge pollutions such as cold oil have ensured the comfort that user uses.Further, pass through 545 noise elimination noise reduction of noise elimination ring, enhancing Customer experience sense and sense of hearing comfort.

The above embodiments of the present invention is merely examples for clearly illustrating the present invention, and is not Limitations of the embodiments of the present invention.For those of ordinary skill in the art, on above explained basis On can also make other variations or changes in different ways.Here all embodiments can not be exhaustive.All categories In the obvious changes or variations that the technical solution of the utility model is extended out still in the protection model of the utility model The column enclosed.

Claims (11)

1. a kind of atomizer, which is characterized in that the atomizer includes oil storage cabin component, base assembly and atomization core assembly, institute Stating base assembly includes base body, and the base body is equipped with accommodating chamber and air inlet, the air inlet and the accommodating chamber Connection, the atomization core assembly are installed between the oil storage cabin component and the base assembly, and the atomization core assembly includes Atomization portion and distributary division, the atomization portion include spray chamber, and the distributary division is installed on the atomization portion and is equipped with air-flow and separates Room, the air-flow separation chamber include eddy flow region and the direct current region with the eddy flow regional connectivity, and the eddy flow region is equipped with First centre bore, the direct current region are equipped with the first airflow hole and the first deflector, first centre bore, first air-flow Hole is connected to the spray chamber, and the oil storage cabin component is equipped with the second centre bore, wherein the gas entered from the air inlet, A part of gas passes through the first centre bore, spray chamber and the second centre bore in a manner of eddy flow, at the center of the atomizer Region forms vortex gas-flow, and another part gas passes through the first airflow hole, spray chamber and the second centre bore in a manner of direct current, with Straight-flow air is formed in the fringe region of the atomizer.

2. atomizer according to claim 1, which is characterized in that if first airflow hole and first deflector are Dry, the first deflector radial distribution in the air-flow separation chamber inner wall and from the inner wall of the air-flow separation chamber towards institute The first centre bore protrusion is stated, first deflector is equipped between the first airflow hole described in every two, to help another portion Gas is divided to pass through the fringe region in a manner of direct current.

3. atomizer according to claim 1, which is characterized in that the distributary division further includes noise elimination ring, the noise elimination ring End positioned at the distributary division and the boundary positioned at the eddy flow region and the direct current region.

4. atomizer according to claim 2, which is characterized in that the section of first deflector surrounds a circle, institute It is identical as the central axis of first centre bore to state round central axis.

5. atomizer according to claim 2, which is characterized in that the section of first airflow hole is that an opening reduces U-shaped, the centerline axis parallel of the central axis of each the first airflow hole and first centre bore.

6. atomizer according to claim 1, which is characterized in that the base body is equipped with eddy flow and generates structure, described Eddy flow is generated structure and the air-flow entered from the air inlet is formed vortex gas-flow and is passed through the center in a manner of eddy flow Domain.

7. atomizer according to claim 6, which is characterized in that first deflector is used to produce the eddy flow and tie The vortex gas-flow that structure generates becomes straight-flow air and in a manner of direct current by the fringe region, first deflector section Area slowly expanded from close to the base body towards the atomization portion so as to become straight-flow air more slow for vortex gas-flow Slowly.

8. atomizer according to claim 6, which is characterized in that the eddy flow generates the water conservancy diversion that structure is several arcs Blade, the radially distributed inner wall in the accommodating chamber of the guide vane and from the inner wall of the accommodating chamber towards the accommodating chamber Center curvature extend.

9. atomizer according to claim 1, which is characterized in that the oil storage cabin component includes upper cover, in described second Heart hole is located at the centre of the upper cover, and the upper cover includes stabilier, and the stabilier is radially distributed in second center The inner wall in hole is simultaneously protruded from the inner wall of second centre bore towards the center of second centre bore, to keep the straight-flow air Intensity stabilization.

10. atomizer according to claim 9, which is characterized in that the atomizer further includes settling chamber, the settling chamber Between the upper cover and the atomization core assembly.

11. a kind of electronics heating evaporation suction unit, including host, which is characterized in that the electronics heating evaporation suction unit It further include the atomizer as described in claim 1-10 any one, the host and the atomizer are electrically connected.